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Method for rushing to repair damaged road surfaces rapidly

A fast and damaged technology, applied in the direction of roads, roads, road repair, etc., can solve the problems of long time for road repair, affecting traffic, etc., and achieve the effect of saving materials, ensuring curing strength, and shortening the time for emergency repair and curing.

Active Publication Date: 2014-12-03
RENCHSAND ECO ENVIRONMENT PROTECTION SCI & TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] For this reason, the technical problem to be solved by the present invention is that in the prior art, the road repair time is relatively long, which leads to the problem of long-term road closures affecting traffic, and then provides a method for quickly repairing the road surface with a shorter curing time

Method used

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  • Method for rushing to repair damaged road surfaces rapidly
  • Method for rushing to repair damaged road surfaces rapidly
  • Method for rushing to repair damaged road surfaces rapidly

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0051] The self-compacting fast-curing pavement patching material described in this embodiment is prepared according to the following method from the following components by weight:

[0052] (1) Heat 60 parts of ceramic sand aggregate with a particle size of 70-140 mesh and a specific gravity of 1.8-2.0 to 150-160°C;

[0053] (2) Add 30 parts of thermoplastic phenolic resin into the clay aggregate while it is hot and stir evenly to obtain a stable mixture;

[0054] (3) Add 1 part of urotropine to the reactant obtained in step (2) while it is hot, stir evenly and cool down naturally;

[0055] (4) Cool the reactant obtained in step (3) to room temperature, crush it to a particle size of 70-140 mesh, and sieve it to obtain the required repair material.

[0056]The repair material prepared in this embodiment is tested, and its strength can reach 45 MPa only by heating for 60 minutes, which can fully meet the strength requirements of airports or expressway pavement.

Embodiment 2

[0058] The self-compacting fast-curing pavement patching material described in this embodiment is prepared according to the following method from the following components by weight:

[0059] (1) Heat 95 parts of ceramsite aggregate with a particle size of 70-140 mesh and a specific gravity of 1.7-2.5 to 700-800°C, and then naturally cool to 90-100°C;

[0060] (2) Add 4 parts of thermoplastic boron phenolic resin to the ceramsite aggregate while it is hot and stir evenly to obtain a stable mixture;

[0061] (3) Mix 10 parts of urotropine into the reactant obtained in step (2) while it is hot, stir evenly and cool down naturally;

[0062] (4) Cool the reactant obtained in step (3) to room temperature, crush it to a particle size of 70-140 mesh, and sieve it to obtain the required repair material.

[0063] The repairing material prepared in this embodiment is tested, and its strength can reach 48MPa only by heating for 65 minutes, which can fully meet the strength requirements o...

Embodiment 3

[0065] The self-compacting fast-curing pavement patching material described in this embodiment is prepared according to the following method from the following components by weight:

[0066] (1) Heat 85 parts of small steel ball aggregates with a particle size of 20-40 mesh and a specific gravity of 7.9 to 160-200°C, and then naturally cool to 90-100°C;

[0067] (2) Add 10 parts of thermoplastic silicone-modified epoxy resin to the small steel ball aggregate while it is hot, and mix evenly to obtain a stable mixture;

[0068] (3) Add 2 parts of ammonium chloride to the reactant obtained in step (2) while it is hot, and let it cool down naturally after stirring evenly;

[0069] (4) Cool the reactant obtained in step (3) to room temperature, crush it to a particle size of 20-40 mesh, and sieve it to obtain the required repair material.

[0070] The repair material prepared in this example is tested, and its strength can reach 60 MPa only by heating for 70 minutes, which can ful...

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Abstract

The invention belongs to the field of road construction, and in particular relates to a method for rushing to repair damaged road surfaces rapidly. The method for rushing to repair the damaged road surfaces rapidly comprises the following steps of: (1) placing an electric heating device to the pits of the damaged road surfaces; and (2) filling repairing materials into the pits of the damaged road surfaces, covering the electric heating device, meanwhile starting up the electric heating device, and heating for 50-70 minutes so as to enable the repairing materials to be heated up and cured, thereby repairing the damaged road surfaces. The repairing materials consist of 60-95 parts of dense aggregate, 4-30 parts of thermoplastic resin bonding agents as well as 1-10 parts of thermal initiation latent curing agents capable of inducing the thermoplastic resin bonding agents to be cured rapidly under the heating state. By utilizing the method, high-intensity road surface base materials can be formed within 50-70 minutes under the heating state, and the time for rushing to repair and curing is shortened greatly.

Description

technical field [0001] The invention belongs to the field of road construction, and in particular relates to a method suitable for rapid repair of road engineering. Background technique [0002] With the rapid development of my country's economy, the number of airport runways has increased rapidly, a large number of high-grade highways have been constructed, and the implementation of concrete projects such as city squares and municipal highways has improved the quality of human life and promoted the healthy development of the national economy. Most of the existing roads use concrete construction pavement, which not only has good quality but also has a long service life. However, the maintenance of the concrete pavement after the pavement is damaged during use is more complicated. It needs to be closed and out of service for repair, and it needs to use relatively large machinery to plan and rebuild the pavement. At the same time, the maintenance period is longer. At present,...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B26/14C04B26/12E01C23/09C04B111/72
Inventor 秦升益王振邦汪卫坤
Owner RENCHSAND ECO ENVIRONMENT PROTECTION SCI & TECH CO LTD
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